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Fusion Science and Technology Volume 75, 2019 - Issue 7: Selected papers from the 23rd Topical Meeting on the Technology of Fusion Energy—Advanced Concepts and Materials
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Technical Papers

Plasma-Material-Interaction Research Using PISCES Linear Plasma Devices

M. J. BaldwinUniversity of California at San Diego,Center for Energy Research, San Diego, California92093-0417Correspondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-6335-2255View further author information
ORCID Icon,
R. P. DoernerUniversity of California at San Diego,Center for Energy Research, San Diego, California92093-0417View further author information
,
D. NishijimaUniversity of California at San Diego,Center for Energy Research, San Diego, California92093-0417View further author information
,
M. PatinoUniversity of California at San Diego,Center for Energy Research, San Diego, California92093-0417View further author information
,
M. J. SimmondsUniversity of California at San Diego,Center for Energy Research, San Diego, California92093-0417View further author information
,
G. TynanUniversity of California at San Diego,Center for Energy Research, San Diego, California92093-0417View further author information
,
J. H. YuUniversity of California at San Diego,Center for Energy Research, San Diego, California92093-0417View further author information
&
A. ZaložnikUniversity of California at San Diego,Center for Energy Research, San Diego, California92093-0417View further author information
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Pages 664-673 | Received 14 Jun 2018, Accepted 18 Jul 2019, Published online: 07 Oct 2019
 
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Abstract

Recent plasma-material-interaction (PMI) studies of relevance to fusion PMI science are discussed. The results are a mix of science experiments and in situ diagnostic technology development. Scientific issues addressed include the nature of He and W atom migration in the evolution of W fuzz surfaces, understanding the nature of D retention in damaged W surfaces via modeling with the tritium migration and analysis program, and an examination of synergistic effects associated with D trapping on composite Be codeposit and W substrate surfaces. In situ diagnostic developments discussed include laser-induced desorption spectroscopy for the measurement of bulk hydrogen retention and laser-induced breakdown spectroscopy for the measurement of near-surface composition.

ACKNOWLEDGMENTS

This work is supported by U.S. Department of Energy grant award numbers DE-FG02-07ER54912, DE-SC001-8281, and DE-SC001-8268.

Additional information

Funding

This work is supported by a USDOE Grant Awards: #DE-FG02-07ER54912, #DE-SC001-8281, and #DE-SC001-8268.

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